genomic diversity applications in human population genetics

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One of the major themes of human population genetics is assaying genetic variation in human populations. The ultimate goal of this objective is to understand the extent of genetic diversity and the use of this knowledge to reconstruct our evolutionary history. The discipline had undergone a revolutionary transition with the advent of molecular techniques in the 1980s. With this shift, statistical methods have also been developed to perceive the biological and molecular basis of human genetic variation. Using the new perspectives gained during the above transition, this volume describes the applications of molecular markers spanning the autosomal, Y-chromosomal and mitochondrial genome in the analysis of human diversity in contemporary populations. This is the first reference book of its kind to bring together data from these diverse sets of markers for understanding evolutionary histories and relationships of modern humans in a single volume.

This book assesses the scientific value and merit of research on human genetic differences--including a collection of DNA samples that represents the whole of human genetic diversity--and the ethical, organizational, and policy issues surrounding such research. Evaluating Human Genetic Diversity discusses the potential uses of such collection, such as providing insight into human evolution and origins and serving as a springboard for important medical research. It also addresses issues of confidentiality and individual privacy for participants in genetic diversity research studies.

Genomic science indicates that humans descend not from an individual pair but from a large population. What does this mean for the basic claim of many Christians: that humans descend from Adam and Eve? Leading evangelical geneticist Dennis Venema and popular New Testament scholar Scot McKnight combine their expertise to offer informed guidance and answers to questions pertaining to evolution, genomic science, and the historical Adam. Some of the questions they explore include: - Is there credible evidence for evolution? - Do we descend from a population or are we the offspring of Adam and Eve? - Does taking the Bible seriously mean rejecting recent genomic science? - How do Genesis's creation stories reflect their ancient Near Eastern context, and how did Judaism understand the Adam and Eve of Genesis? - Doesn't Paul's use of Adam in the New Testament prove that Adam was a historical individual? The authors address up-to-date genomics data with expert commentary from both genetic and theological perspectives, showing that genome research and Scripture are not irreconcilable. Foreword by Tremper Longman III and afterword by Daniel Harrell.

This book describes the remarkable progress which has been made in defining the extent and nature of human genetic variation. It provides a framework for understanding how research in this area is revolutionising our knowledge of human origins and the genetic basis of disease, as well as common traits such as obesity.

Microbial population genetics is a rapidly advancing field of investigation with relevance to many areas of science. The subject encompasses theoretical issues, such as the origins and evolution of species, sex, and recombination. Population genetics lays the foundations for tracking the origin and evolution of antibiotic resistance and deadly infectious pathogens and is also an essential tool in the utilization of beneficial microbes. This invaluable book, written by leading researchers in the field, details the current major advances in microbial population genetics and genomics. Distinguished international scientists introduce fundamental concepts, describe genetic tools, and comprehensively review recent data from SNP surveys, whole-genome DNA sequences, and microarray hybridizations. The chapters cover broad groups of microorganisms including viruses, bacteria, archaea, fungi, protozoa, and algae. A major focus is the application of molecular tools in the study of genetic variation. Topics covered include microbial systematics, comparative microbial genomics, horizontal gene transfer, pathogenic bacteria, nitrogen-fixing bacteria, cyanobacteria, microalgae, fungi, malaria parasites, viral pathogens, and metagenomics. Microbial Population Genetics is an essential volume for everyone interested in population genetics, and it is highly recommended reading for all microbiologists.

For the last eighteen years we have been deeply involved in a cooperative effort with our Latin American colleagues in genetics, biochemistry, physiology, and molecular biology. We have been in close contact with scientists in a number of centers and have helped to organize symposia, workshops, and so forth, in an effort to accelerate their development and make their substantial work known. These symposia in Latin America have been quite successful. The fifteenth will take place in Brasilia in 1977. At the request of colleagues, we are in the process of developing a similar series in Asia. The first very successful symposium was held in Calcutta in 1973. We were most pleased when Dr. Amir Muhammed, Vice Chancellor of the University of Agriculture, Lyallpur suggested that we hold a symposium on a topic of great importance to Pakistan, Genetic Control of Diversity in Plants, under the auspices of the University of Agriculture. It is our hope that this symposium will be followed by additional ones in Pakistan as well as in other countries in the Far East. Leadership is quickly developing in the hands of outstanding scientists in these countries, and we appreciate the opportunity to cooperate with them. We are especially grateful to the Natiohal Science Foundation for makingPL- 480 funds available which made this symposium possible.

Drawing on the work of scientists who have made crucial—and startling—breakthroughs in establishing the reality of recent human evolution, a longtime journalist covering genetic advances for The New York Times examines the genetic basis of race and its role in human history.

Every species has to preserve the integrity of its genome to ensure faithful passage of genetic information to the progeny. At the same time, there are times during the life of the organism and population in general when a fine balance in genome stability and diversification has to be made to benefit the survival of the species. Genome Stability teaches the reader how various species maintain this fine balance in genome stability and genome diversification in response to their environments. Genome Stability covers a wide range of topics, including the genome stability of DNA/RNA viruses, prokaryotes, single cell eukaryotes, lower multicellular eukaryotes and mammals. Topics also include major DNA repair mechanisms, the role of chromatin in genome stability, human diseases associated with genome instability as well as changes in genome stability in response to aging. Finally, Genome Stability covers how epigenetic factors contribute to genome stability and how the species pass the memory of the encounters to the progeny, thus influencing the genome of the progeny in an indirect manner. This volume is an essential resource for geneticists, epigeneticists, and molecular biologists who are looking to gain a deeper understanding of this rapidly-expanding field, and can also be of great use to advanced students who are looking to gain additional expertise in genome stability. Includes a collection of chapters on genome stability research from various kingdoms, including topics such as epigenetics and transgenerational effects Provides the first comprehensive coverage of the differences in the mechanisms utilized by different organisms to maintain genomic stability Contains applications of genome instability and its effect on human diseases Explains how various species maintain the fine balance in genome stability and genome diversification in response to their environments